Vitamin D receptor gene polymorphisms modify the association of serum 25-hydroxyvitamin D levels with handgrip strength in the elderly in Northern China.

[1]  T. Kirkwood,et al.  Vitamin D Status, Muscle Strength and Physical Performance Decline in Very Old Adults: A Prospective Study , 2017, Nutrients.

[2]  D. Kiel,et al.  Vitamin D, bones and muscle: myth versus reality , 2017, Australasian journal on ageing.

[3]  B. Keevil,et al.  25-hydroxyvitamin D3 and 1,25-dihydroxyvitamin D3 exert distinct effects on human skeletal muscle function and gene expression , 2017, PloS one.

[4]  J. Chen,et al.  Vitamin D status among the elderly Chinese population: a cross-sectional analysis of the 2010–2013 China national nutrition and health survey (CNNHS) , 2017, Nutrition Journal.

[5]  A. Nussler,et al.  Crucial Role of Vitamin D in the Musculoskeletal System , 2016, Nutrients.

[6]  L. Ferrucci,et al.  Replication study of the vitamin D receptor (VDR) genotype association with skeletal muscle traits and sarcopenia , 2016, Aging Clinical and Experimental Research.

[7]  H. Lukaski,et al.  Whey protein, amino acids, and vitamin D supplementation with physical activity increases fat-free mass and strength, functionality, and quality of life and decreases inflammation in sarcopenic elderly. , 2016, The American journal of clinical nutrition.

[8]  N. Binkley,et al.  Vitamin D and Sarcopenia/Falls. , 2015, Journal of clinical densitometry : the official journal of the International Society for Clinical Densitometry.

[9]  J. Chen,et al.  Comparison of two 25-hydroxyvitamin D immunoassays to liquid chromatography-tandem mass spectrometry in assessing samples from the Chinese population. , 2015, Clinica chimica acta; international journal of clinical chemistry.

[10]  S. Tanni,et al.  Vitamin D serum levels are associated with handgrip strength but not with muscle mass or length of hospital stay after hip fracture. , 2015, Nutrition.

[11]  Leon Lenchik,et al.  Sarcopenia: Current Concepts and Imaging Implications. , 2015, AJR. American journal of roentgenology.

[12]  O. Phan,et al.  Vitamin D: A Review on Its Effects on Muscle Strength, the Risk of Fall, and Frailty , 2015, BioMed research international.

[13]  H. Kaji,et al.  [Current Topics on Vitamin D. Influences of vitamin D on muscle cells and function]. , 2015, Clinical calcium.

[14]  Xulei Tang,et al.  High prevalence of vitamin D deficiency among middle-aged and elderly individuals in northwestern China: its relationship to osteoporosis and lifestyle factors. , 2015, Bone.

[15]  Sunmin Park,et al.  A positive association of vitamin D deficiency and sarcopenia in 50 year old women, but not men. , 2014, Clinical nutrition.

[16]  C. Stewart,et al.  Lean Mass, Muscle Strength and Gene Expression in Community Dwelling Older Men: Findings from the Hertfordshire Sarcopenia Study (HSS) , 2014, Calcified Tissue International.

[17]  A. Wagatsuma,et al.  Vitamin D Signaling in Myogenesis: Potential for Treatment of Sarcopenia , 2014, BioMed research international.

[18]  S. N. Cosar,et al.  Association of vitamin D deficiency with muscle strength and quality of life in postmenopausal women , 2014, Climacteric : the journal of the International Menopause Society.

[19]  L. Peng,et al.  Sarcopenia in Asia: consensus report of the Asian Working Group for Sarcopenia. , 2014, Journal of the American Medical Directors Association.

[20]  S. Spedding Vitamin D and Human Health: Celebrating Diversity , 2013, Nutrients.

[21]  T. Törmäkangas,et al.  Does Serum 25-Hydroxyvitamin D Influence Muscle Development during Puberty in Girls? - A 7-Year Longitudinal Study , 2013, PloS one.

[22]  C. Conlon,et al.  Vitamin D status predicts hand-grip strength in young adult women living in Auckland, New Zealand , 2013, The Journal of Steroid Biochemistry and Molecular Biology.

[23]  S. Paiva,et al.  Handgrip strength predicts pressure ulcers in patients with hip fractures. , 2012, Nutrition.

[24]  C. Dupont,et al.  Vitamin D: still a topical matter in children and adolescents. A position paper by the Committee on Nutrition of the French Society of Paediatrics. , 2012, Archives de pediatrie : organe officiel de la Societe francaise de pediatrie.

[25]  Amie J. Dirks-Naylor,et al.  The effects of vitamin D on skeletal muscle function and cellular signaling , 2011, The Journal of Steroid Biochemistry and Molecular Biology.

[26]  Keith C. Norris,et al.  1,25(OH)2vitamin D3 stimulates myogenic differentiation by inhibiting cell proliferation and modulating the expression of promyogenic growth factors and myostatin in C2C12 skeletal muscle cells. , 2011, Endocrinology.

[27]  J. Baeyens,et al.  Sarcopenia: European consensus on definition and diagnosis , 2010, Age and ageing.

[28]  D. Felsenberg,et al.  Association between vitamin D receptor gene polymorphisms, falls, balance and muscle power: results from two independent studies (APOSS and OPUS) , 2010, Osteoporosis International.

[29]  S. Humphries,et al.  Vitamin D receptor genotypes influence quadriceps strength in chronic obstructive pulmonary disease. , 2008, The American journal of clinical nutrition.

[30]  D. Grattapaglia,et al.  Lack of association between vitamin D receptor genotypes and haplotypes with fat-free mass in postmenopausal Brazilian women. , 2007, The journals of gerontology. Series A, Biological sciences and medical sciences.

[31]  D. Trump,et al.  Vitamin D signalling pathways in cancer: potential for anticancer therapeutics , 2007, Nature Reviews Cancer.

[32]  J. Lefevre,et al.  Polymorphisms in the vitamin D receptor gene are associated with muscle strength in men and women , 2007, Osteoporosis International.

[33]  E. Grundberg,et al.  Genetic variation in the human vitamin D receptor is associated with muscle strength, fat mass and body weight in Swedish women. , 2004, European journal of endocrinology.

[34]  M. Samson,et al.  Vitamin D deficiency, muscle function, and falls in elderly people. , 2002, The American journal of clinical nutrition.

[35]  B. Hollis Comparison of commercially available (125)I-based RIA methods for the determination of circulating 25-hydroxyvitamin D. , 2000, Clinical chemistry.

[36]  M. Galligan,et al.  The polymorphic N terminus in human vitamin D receptor isoforms influences transcriptional activity by modulating interaction with transcription factor IIB. , 2000, Molecular endocrinology.

[37]  P. Geusens,et al.  Quadriceps and Grip Strength Are Related to Vitamin D Receptor Genotype in Elderly Nonobese Women , 1997, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[38]  Y. Taketani,et al.  A Vitamin D Receptor Gene Polymorphism in the Translation Initiation Codon: Effect on Protein Activity and Relation to Bone Mineral Density in Japanese Women , 1997, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[39]  P. Thompson,et al.  25(OH) vitamin D is associated with greater muscle strength in healthy men and women. , 2013, Medicine and science in sports and exercise.

[40]  J. Cauley,et al.  Vitamin D receptor genotype is associated with fat-free mass and sarcopenia in elderly men. , 2004, The journals of gerontology. Series A, Biological sciences and medical sciences.

[41]  Martin Wehling,et al.  Nongenomic actions of steroid hormones , 2003, Nature Reviews Molecular Cell Biology.